EP2474714B1 - Internal combustion engine with wall masking the curtain area of the intake valves - Google Patents
Internal combustion engine with wall masking the curtain area of the intake valves Download PDFInfo
- Publication number
- EP2474714B1 EP2474714B1 EP10196728A EP10196728A EP2474714B1 EP 2474714 B1 EP2474714 B1 EP 2474714B1 EP 10196728 A EP10196728 A EP 10196728A EP 10196728 A EP10196728 A EP 10196728A EP 2474714 B1 EP2474714 B1 EP 2474714B1
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- EP
- European Patent Office
- Prior art keywords
- intake valve
- intake
- valve
- axis
- valves
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 238000002485 combustion reaction Methods 0.000 title claims description 30
- 230000000873 masking effect Effects 0.000 title claims description 28
- 239000012530 fluid Substances 0.000 claims description 16
- 238000005086 pumping Methods 0.000 claims description 8
- 238000004891 communication Methods 0.000 description 9
- 230000000694 effects Effects 0.000 description 9
- 230000033001 locomotion Effects 0.000 description 7
- 238000010586 diagram Methods 0.000 description 5
- 239000011449 brick Substances 0.000 description 3
- 230000006978 adaptation Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 239000000446 fuel Substances 0.000 description 1
- 238000005461 lubrication Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000000930 thermomechanical effect Effects 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B17/00—Engines characterised by means for effecting stratification of charge in cylinders
- F02B17/005—Engines characterised by means for effecting stratification of charge in cylinders having direct injection in the combustion chamber
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01L—CYCLICALLY OPERATING VALVES FOR MACHINES OR ENGINES
- F01L9/00—Valve-gear or valve arrangements actuated non-mechanically
- F01L9/10—Valve-gear or valve arrangements actuated non-mechanically by fluid means, e.g. hydraulic
- F01L9/11—Valve-gear or valve arrangements actuated non-mechanically by fluid means, e.g. hydraulic in which the action of a cam is being transmitted to a valve by a liquid column
- F01L9/12—Valve-gear or valve arrangements actuated non-mechanically by fluid means, e.g. hydraulic in which the action of a cam is being transmitted to a valve by a liquid column with a liquid chamber between a piston actuated by a cam and a piston acting on a valve stem
- F01L9/14—Valve-gear or valve arrangements actuated non-mechanically by fluid means, e.g. hydraulic in which the action of a cam is being transmitted to a valve by a liquid column with a liquid chamber between a piston actuated by a cam and a piston acting on a valve stem the volume of the chamber being variable, e.g. for varying the lift or the timing of a valve
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B31/00—Modifying induction systems for imparting a rotation to the charge in the cylinder
- F02B2031/006—Modifying induction systems for imparting a rotation to the charge in the cylinder having multiple air intake valves
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B2275/00—Other engines, components or details, not provided for in other groups of this subclass
- F02B2275/48—Tumble motion in gas movement in cylinder
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
Definitions
- the present invention refers to spark ignition four-stroke internal combustion engines, of the type comprising, for each cylinder:
- curtain area is intended to indicate the theoretical cylindrical surface, coaxial with the valve, which, in the open condition of the valve, extends between the circular edge of the head of the valve and the circular edge of the valve seat.
- JP 2010 261314 A An engine of the type indicated in the preamble of claim 1 is known from JP 2010 261314 A .
- the object of the present invention is to provide an engine of the previously described type which provides a highly efficient combustion in all the operating conditions thereof and capable of obtaining such objects through simple and reliable means.
- the invention provides an engine as set forth in claim 1.
- figure 1 of the attached drawings shows a cross-sectional view of an engine according to such technique, as described in the European patent EP 0 803 642 B1 of the Applicant.
- the engine illustrated therein is a multicylinder engine, for example an in-line four-cylinder internal combustion engine, comprising a cylinder head 1.
- the head 1 comprises, for each cylinder, a cavity 2 formed by the base surface 3 of the head 1, defining the combustion chamber, in which two intake conduits 4, 5 and two exhaust conduits 6 end up.
- the communication of the two intake conduits 4, 5 with the combustion chamber 2 is controlled by two intake valves 7, of the conventional mushroom-like intake valves, each comprising a stem 8 mounted slidably in the body of the head 1.
- Each valve 7 is returned towards the closed position by springs 9 interposed between an inner surface of the head 1 and an end retaining cap 10 of the valve.
- the communication of the two exhaust conduits 6 with the combustion chamber is controlled by two valves 70, also of the conventional type, to which springs 9 for returning towards the closed position are associated.
- each intake valve 7 is controlled, in a manner to be described hereinafter, by a camshaft 11 mounted rotatable around an axis 12 within supports of the head 1, and comprising a plurality of cams 14 for the actuation of the intake valves 7.
- Each cam 14 which controls an intake valve 7 cooperates with the plate 15 of a tappet 16 mounted slidably along an axis 17 which, in the case of the example illustrated in the previously mentioned prior art document, is directed substantially at 90° with respect to the axis of the valve 7.
- the plate 15 is returned against the cam 14 by a spring associated thereto.
- the tappet 16 constitutes a pumping piston mounted slidably within a bushing 18 carried by a body 19 of a preassembled assembly 20, incorporating all the electrical and hydraulic devices associated to the actuation of the intake valves, according to the detailed description outlined hereinafter.
- the pumping piston 16 is capable of transmitting a thrust to the stem 8 of the valve 7, so as to cause the opening of the latter against the action of the elastic means 9, by means of pressurised fluid (preferably oil coming the engine lubrication circuit) present in a pressure chamber C towards which the pumping piston 16 faces, and by means of a piston 21 mounted slidably in a cylindrical body constituted by a bushing 22 which is also carried by the body 19 of the subassembly 20.
- pressurised fluid preferably oil coming the engine lubrication circuit
- the pressurised fluid chamber C associated to each intake valve 7 can be placed in communication with an exhaust channel 23 through a solenoid valve 24.
- the solenoid valve 24, which can be of any known type, adapted to the function illustrated herein, is controlled by electronically controlled means, schematically indicated with 25, as a function of the signals S indicating the operating parameters of the engine, such as the position of the accelerator and the number of engine revolutions.
- the exhaust channels 23 of the various solenoid valves 24 all end up the in the same longitudinal channel 26 communicating with pressure accumulators 27, only one of which is visible in figure 1 .
- the exhaust valves 70 associated to each cylinder are controlled, in the embodiment illustrated in figure 1 , in a conventional manner, by a respective camshaft 28, through respective tappets 29, though an application of the hydraulic actuation system also to the control of the exhaust valves is not generally excluded in the case of the previously mentioned prior art document.
- variable volume chamber defined within the bushing 22 and facing the piston 21 (which is illustrated in the minimum volume condition thereof in figure 1 , the piston 21 being in the upper end stop position thereof) is placed in communication with the pressurised fluid chamber C through an opening 30 obtained in an end wall of the bushing 22.
- opening 30 is engaged by an end nose 31 of the piston 21 so as to provide a hydraulic braking of the movement of the valve 7 during the closing phase, when the valve is close to the closed position, in that the oil present in the variable volume chamber is forced to flow into the pressurised fluid chamber C passing through the clearance present between the end nose 31 and the wall of the opening 30 engaged thereby.
- the pressurised fluid chamber C and the variable volume chamber of the piston 21 communicate with each other through internal passages obtained in the body of the piston 21 and controlled by a check-valve 32 which allows the passage of the fluid only from the pressurised chamber C to the variable volume chamber of the piston 21.
- the Applicant also previously proposed (see European patent application EP 1 344 900 A2 ) a different solution in which the piston 21 for controlling the intake engine valve does not have the end nose and the check-valve 32 is obtained in a fixed part instead of being obtained in the body of the piston 21. Furthermore, one or more passages directly communicating with the pressure chamber C end up in the wall of the bushing within which the piston 21 is mounted slidably. Such passages are configured and positioned so that they are progressively intercepted by the piston 21 in the final phase of closing the engine valve, with the aim of providing a narrowing of the passage section for the fluid, with ensuing hydraulic braking effect. Furthermore, in the solution proposed in the European patent application EP 1 344 900 A2 an auxiliary hydraulic tappet is interposed between the piston 21 1 for controlling the engine valve and the stem of the engine valve.
- figure 2 of the attached drawings shows the embodiment subject of the previous European patent application EP 1 653 057 A1 of the Applicant.
- the engine is provided with a single camshaft for controlling both the intake valves and the exhaust valves.
- all components of the electronically controlled hydraulic device are carried by a single brick structure 200 which has a lower plane which in the mounted condition corresponds to the plane passing through the axes of two shafts 11, 28.
- the shaft 11 is the only camshaft of the engine and it is therefore provided both with cams for controlling the intake valves and the cams for controlling the exhaust valves of the engine, while the shaft 28 is a camless shaft having an end projecting from the cylinder head carrying a power take off which can be used for the actuation of any auxiliary system.
- the two shafts 11, 28 have ends also outside the cylinder head carrying gears 202, 203 intended to mesh with the transmission chain which transmits motion from the drive shaft to the shafts 11, 28.
- the shaft 11 is provided both with cams for actuating the intake valves of the engine and cams for actuating the exhaust valves.
- the cams for controlling the intake valves control the latter by means of an electronically controlled hydraulic device of the type analogous to the one described with reference to figure 1 .
- the parts of such device are indicated with the same reference numbers that were used in figure 1 .
- the exhaust valves are controlled mechanically by the respective cams of the shaft 11.
- the exhaust valves are controlled through rocker arms 204 each of which has an end 205 pivoted to the structure of the cylinder head, an intermediate roller for contact with the respective cam, and the opposite end 206 which controls the respective exhaust valve 70.
- the pumping element 16 associated to each intake valve is instead controlled by a rocker arm 207 which is pivoted to the brick structure 200 and which has portions for respectively engaging with the control cam carried by the shaft 11 and with the pumping element 16.
- Figure 2 also illustrates the spark plug centrally associated to the engine cylinder.
- the brick carries all the elements part of the electronically controlled hydraulic device for the variable actuation of the intake valves 7, as well as all the channels of the hydraulic system associated to such device.
- such engine is a four-stroke spark ignition engine, provided with a system for variably actuating the intake valves for example of the "MULTIAIR" type described previously with reference to figures 1 and 2 , capable of obtaining a lift of the intake valves equivalent to any value comprised between the zero value and a maximum value and also capable of varying both the duration of the opening of the intake valves and the opening and closing instants of the intake valves during the engine operating cycle.
- the use of a "MULTIAIR" system also allows the advantage of being able to provide a plurality of operations for opening and closing the intake valves within the engine intake phase.
- the engine according to the invention can also be provided with a system for the variable actuation of the intake valves different from the "MULTIAIR" system, as long as it is capable of obtaining a lift of the intake valves corresponding to any value comprised between the zero value and a maximum value, as well as varying both the opening duration of the intake valves and the opening and closing instants of the intake valves.
- the axis of each intake valve is inclined with respect to the axis of the respective engine cylinder by an angle not exceeding 12°.
- FIG 8 of the attached drawings where the parts common to that of figures 1 , 2 are indicated with the same reference number.
- the axis of each of the two intake valves 7 associated to each cylinder is indicated with 7a, while X indicates the axis of the cylinder.
- the angle A comprised between the axes 7a and X is substantially equivalent to 10°, and same case applies to the axis of each of the two exhaust valves associated to each cylinder.
- Such low inclination arrangement of the axes of the valves of the engine allows obtaining an engine having more compact dimensions, especially in the horizontal direction with reference to figure 8 .
- a further important characteristic of the engine according to the invention lies in the fact that two intake valves and two exhaust valves ( figures 4 , 6 show the seats 7' and 70' respectively of the intake valves 7 and of the exhaust valves 70) which are arranged around a central spark plug ( figures 4 , 6 only show the seat SP for the spark plug, which is instead illustrated in figure 2 , at a vertical central position between the valves 7, 70) are provided for each cylinder.
- a further essential characteristic of the engine according to the invention which is clearly observable in figures 4 , 6 , 8 and 9 of the attached drawings lies in the fact that the upper surface of the combustion chamber associated to each cylinder, defined in the lower surface 3 of the cylinder head, is formed with a masking wall which masks the curtain area of the intake valves 7 on the side facing towards the exhaust valves 70.
- curtain area is used to indicate the theoretical cylindrical surface, coaxial with each intake valve, which is defined, when the intake valve is open, between the circular edge of the head of the intake valve and the circular edge of the seat thereof.
- the masking wall provided in each combustion chamber of the engine according to the invention is indicated in its entirety with reference M and it has two arched sections M1, M2, connected to each other by a central portion M3, which is coaxially extended to the axis 7a of each intake valve along the circular edge of the valve seat 7'.
- the masking wall M has, in each section M1, M2 along the edge of each valve seat 7', a section tapered towards a top edge, with an inner surface m, facing towards the axis of the intake valve 7, which is a cylindrical surface with axis coinciding with the axis 7a of the valve. Furthermore, each of the portions M1, M2 of the masking wall M has an outer surface having a radiused profile, with a concave section n1 at the base of the wall M and a convex section n2 at the top of the wall.
- the profile thus defined of the section of the masking wall M was ideal for avoiding hot spots in the combustion chamber that could cause pre-ignition and lead to thermo-mechanical stresses.
- reference h indicates the height, in the direction parallel to the axis 7a of each intake valve, of the masking wall M, while H indicates the maximum lift value of the intake valve (which is illustrated with a dashed line in figure 9 in the condition of maximum opening thereof).
- the selected value of the h/H ratio is comprised between 0.1 and 0.5 and it is preferably substantially equivalent to 0.25.
- the radial clearance g (see figure 9 ) between the internal cylindrical wall m of the masking wall M and the circular edge of the head of the intake valves 7 is preferably comprised between 0.005 and 0.05 times the value of the diameter of the circular head of the intake valve.
- the ratio between the clearance g and the diameter of the head of the intake valve is substantially equivalent to 0.028.
- the angular width ⁇ along which the respective portion of the masking wall M extends, around the axis 7a of each intake valve is comprised between 90° and 200° and it is preferably substantially equivalent to 180°.
- Figures 11 , 12 are diagrams showing the speed field of the airflow flowing into the combustion chamber during an intake phase, in a low opening condition of the intake valves, respectively in the case of the engine of figures 3 , 5 and in the case of the engine according to the embodiment of the invention illustrated in figures 4 , 6 .
- the low inclination A of the axis of the intake valves would lead, in absence of the masking wall M, to an insufficient tumble effect of the airflow flowing into the combustion chamber 2 in the case of low opening of the intake valve 7, at low engine speed. In such conditions, the energy of the inflowing airflow is low.
- the tumble effect is guaranteed in that, with reference to the representation of figure 8 , the airflow coming from the intake conduit 4 has a high inclination, hence upon reaching in the combustion chamber it tends to follow a circulatory motion (anticlockwise, in the plane of figure 8 ).
- the low inclination A does not give rise to drawbacks in terms of the tumble effect (which is desired to obtain high combustion efficiency) in that the masking wall M diverts the incoming airflow rightwards (with reference to figure 8 ), so as to introduce a circulatory motion opposite to that of a conventional engine with more inclined valves (i.e. in the clockwise direction in figure 8 ).
- the diagram of figure 10 shows the value of the so-called tumble ratio (defined as the component, in the direction normal to the centreline plane of the chamber, of the ratio between the equivalent velocity of the fluid vortex and the rotational speed of the engine) at the various engine angles respectively in the case of an engine of the type illustrated in the figures 3 , 5 , and in the case of an engine according to the invention, with masking wall.
- the tumble effect increases considerably.
- the advantages of the invention are also apparent from the diagram of figure 13 which compares the mean turbulent kinetic energy of the tumble flow in the case of the engine of figures 3 , 5 and that of the engine according to the invention of figures 4 , 6 .
- the masking wall should not be a hindrance, given that it is necessary to exploit the high energy of the airflow flowing into the combustion chamber to obtain an ideal combustion.
- the specific configuration of the masking wall of the engine according to the invention is capable of efficiently meeting all the aforementioned needs, all combined with a with a system for variably actuating the valves which allows optimal adaptation of the lift of the intake valves to any engine operating condition, providing a lift value which can be any value comprised between a zero value and the maximum value H.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Valve Device For Special Equipments (AREA)
- Valve-Gear Or Valve Arrangements (AREA)
Description
- The present invention refers to spark ignition four-stroke internal combustion engines, of the type comprising, for each cylinder:
- a combustion chamber,
- two intake conduits and two exhaust conduits ending up in said combustion chamber,
- two intake valves and two exhaust valves associated to said intake and exhaust conduits, arranged around a central spark plug, said valves being of the type comprising a stem mounted slidably along the axis thereof and a head in form of a circular disc cooperating with a respective valve seat,
- means for varying the lift of the intake valves, and
- a masking wall in said combustion chamber, which masks the curtain area of said intake valves on one side facing towards the exhaust valves.
- In the present description, and in the claims that follow, the term "curtain area" is intended to indicate the theoretical cylindrical surface, coaxial with the valve, which, in the open condition of the valve, extends between the circular edge of the head of the valve and the circular edge of the valve seat.
- An internal combustion engine having the characteristics indicated above is described in document
JP-A-10252477 - An engine of the type indicated in the preamble of
claim 1 is known fromJP 2010 261314 A - The object of the present invention is to provide an engine of the previously described type which provides a highly efficient combustion in all the operating conditions thereof and capable of obtaining such objects through simple and reliable means.
- With the aim of attaining such object, the invention provides an engine as set forth in
claim 1. - As indicated previously, studies and experiments carried out revealed that the characteristics indicated above allow - on one hand - controlling the operation of the engine so as to maintain efficiency thereof maximum and in particular reduce fuel consumption to the minimum and - on the other hand - providing an engine having extremely compact dimensions and which, regardless of the low inclination arrangement of the intake valves, it guarantees a high tumble effect under any operating condition.
- Further characteristics and advantages of the invention shall be clear from the description that follows with reference to the attached drawings, provided purely by way of non-limiting example, wherein:
-
figure 1 is a cross-sectional schematic view of an engine provided with a "MULTIAIR" system according to the description ofdocument EP 0 803 642 B1 of the Applicant, -
figure 2 is a further schematic representation showing a variant of the "MULTIAIR" system, as described indocument EP 1 344 900 A2 of the Applicant, -
figures 3, 4 are bottom views of the upper surface of the combustion chamber of an engine cylinder, respectively in an engine identical to that of the invention but without the masking wall and in an engine according to the invention, -
figures 5, 6 are perspective views corresponding tofigures 3, 4 , -
figure 7 is a further partial view of a combustion chamber of the engine according to the invention, -
figure 8 is a cross-sectional view according to line VIII-VIII offigure 7 , -
figure 9 illustrates a detail offigure 8 in enlarged scale, -
figure 10 illustrates a diagram which compares the tumble effect in an engine identical to that of the invention but without the masking wall and in an engine according to the invention, -
figures 11 ,12 are further schematic representations of the combustion chamber showing the tumble effect respectively in the engine without masking wall and in the engine according to the invention, and -
figure 13 illustrates a further diagram illustrating the mean turbulent kinetic energy of the air flowing into the combustion chamber respectively in the case of the engine without masking wall and the engine according to the present invention. - Over the years, the Applicant has developed multicylinder internal combustion engines, of the type comprising:
- at least one intake valve and at least one exhaust valve for each cylinder, each provided with respective elastic return means which push the valve towards a closed position, for controlling respective intake and exhaust conduits,
- at least one camshaft, for actuating the intake valves and the exhaust valves of the engine cylinders, by means of respective tappets,
- wherein at least each intake valve is of the variable actuation type, being controlled by the respective tappet, against the action of the abovementioned elastic return means, by interposing hydraulic means including a pressurised fluid chamber, which is faced by a pumping piston connected to the tappet of the valve,
- said pressurised fluid chamber being adapted to be connected by means of a solenoid valve with an exhaust channel, with the aim of decoupling the variable actuation valve from the respective tappet and cause the quick closure of the valve due to the respective elastic return means, and
- electronically controlled means per controlling each solenoid valve so as to vary the time and the opening stroke of the variable actuation valves as a function of one or more operating parameters of the engine.
- The Applicant owns various patents and patent applications regarding engines provided with a system of the previously described type, sold under the "MULTIAIR" trademark. For the sake of immediate reference,
figure 1 of the attached drawings shows a cross-sectional view of an engine according to such technique, as described in theEuropean patent EP 0 803 642 B1 of the Applicant. - With reference to such
figure 1 , the engine illustrated therein is a multicylinder engine, for example an in-line four-cylinder internal combustion engine, comprising acylinder head 1. - The
head 1 comprises, for each cylinder, acavity 2 formed by thebase surface 3 of thehead 1, defining the combustion chamber, in which twointake conduits 4, 5 and twoexhaust conduits 6 end up. The communication of the twointake conduits 4, 5 with thecombustion chamber 2 is controlled by twointake valves 7, of the conventional mushroom-like intake valves, each comprising a stem 8 mounted slidably in the body of thehead 1. - Each
valve 7 is returned towards the closed position bysprings 9 interposed between an inner surface of thehead 1 and anend retaining cap 10 of the valve. The communication of the twoexhaust conduits 6 with the combustion chamber is controlled by twovalves 70, also of the conventional type, to whichsprings 9 for returning towards the closed position are associated. - The opening of each
intake valve 7 is controlled, in a manner to be described hereinafter, by acamshaft 11 mounted rotatable around anaxis 12 within supports of thehead 1, and comprising a plurality ofcams 14 for the actuation of theintake valves 7. - Each
cam 14 which controls anintake valve 7 cooperates with theplate 15 of atappet 16 mounted slidably along anaxis 17 which, in the case of the example illustrated in the previously mentioned prior art document, is directed substantially at 90° with respect to the axis of thevalve 7. Theplate 15 is returned against thecam 14 by a spring associated thereto. Thetappet 16 constitutes a pumping piston mounted slidably within abushing 18 carried by abody 19 of a preassembledassembly 20, incorporating all the electrical and hydraulic devices associated to the actuation of the intake valves, according to the detailed description outlined hereinafter. - The
pumping piston 16 is capable of transmitting a thrust to the stem 8 of thevalve 7, so as to cause the opening of the latter against the action of theelastic means 9, by means of pressurised fluid (preferably oil coming the engine lubrication circuit) present in a pressure chamber C towards which thepumping piston 16 faces, and by means of a piston 21 mounted slidably in a cylindrical body constituted by abushing 22 which is also carried by thebody 19 of thesubassembly 20. - Still in the prior art solution illustrated in
figure 1 , the pressurised fluid chamber C associated to eachintake valve 7 can be placed in communication with anexhaust channel 23 through asolenoid valve 24. Thesolenoid valve 24, which can be of any known type, adapted to the function illustrated herein, is controlled by electronically controlled means, schematically indicated with 25, as a function of the signals S indicating the operating parameters of the engine, such as the position of the accelerator and the number of engine revolutions. - When the
solenoid valve 24 is open, the chamber C is placed in communication with thechannel 23, hence the pressurized fluid present in the chamber C flows into such channel and leads to the decoupling of thecam 14 and therespective tappet 16 from theintake valve 7, which thus quickly returns to the closed position thereof under the action of thereturn spring 9. Thus, controlling the communication between the chamber C and theexhaust channel 23 allows varying the opening time and stroke of eachintake valve 7 at will. - The
exhaust channels 23 of thevarious solenoid valves 24 all end up the in the samelongitudinal channel 26 communicating withpressure accumulators 27, only one of which is visible infigure 1 . - All the
tappets 16 with the associatedbushings 18, the pistons 21 with the associatedbushings 22, thesolenoid valves 24 and therespective channels abovementioned body 19 of the preassembledunit 20, to the advantage of the quickness and simplicity of assembly of the engine. - The
exhaust valves 70 associated to each cylinder are controlled, in the embodiment illustrated infigure 1 , in a conventional manner, by arespective camshaft 28, throughrespective tappets 29, though an application of the hydraulic actuation system also to the control of the exhaust valves is not generally excluded in the case of the previously mentioned prior art document. - Still with reference to
figure 1 , the variable volume chamber defined within thebushing 22 and facing the piston 21 (which is illustrated in the minimum volume condition thereof infigure 1 , the piston 21 being in the upper end stop position thereof) is placed in communication with the pressurised fluid chamber C through an opening 30 obtained in an end wall of thebushing 22. Such opening 30 is engaged by anend nose 31 of the piston 21 so as to provide a hydraulic braking of the movement of thevalve 7 during the closing phase, when the valve is close to the closed position, in that the oil present in the variable volume chamber is forced to flow into the pressurised fluid chamber C passing through the clearance present between theend nose 31 and the wall of the opening 30 engaged thereby. Besides the communication constituted by the opening 30, the pressurised fluid chamber C and the variable volume chamber of the piston 21 communicate with each other through internal passages obtained in the body of the piston 21 and controlled by a check-valve 32 which allows the passage of the fluid only from the pressurised chamber C to the variable volume chamber of the piston 21. - During the normal operation of the prior art engine illustrated in
figure 1 , when thesolenoid valve 24 excludes the communication of the pressurised fluid chamber C with theexhaust channel 23, the oil present in such chamber transmits the movement of thepumping piston 16, imparted by thecam 14, to the piston 21 which controls the opening of thevalve 7. In the initial phase of the movement for opening the valve, the fluid coming from the chamber C reaches the variable volume chamber of the piston 21 passing through the check-valve 32 and further passages which place the internal cavity of the piston 21, which is tubular-shaped, in communication with the variable volume chamber. After a first displacement of the piston 21, thenose 31 exits from the opening 30, hence the fluid coming from the chamber C can directly pass into the variable volume chamber through the opening 30, now open. - In the reverse movement of closing the valve, as previously mentioned, during the final phase the
nose 31 enters into the opening 30 causing the hydraulic braking of the valve, so as to avoid impacts of the body of the valve against the seat thereof, for example subsequently to an opening of thesolenoid valve 24 which causes the immediate return of thevalve 7 to the closed position. - Alternatively to the hydraulic braking device illustrated in
figure 1 , the Applicant also previously proposed (see Europeanpatent application EP 1 344 900 A2 ) a different solution in which the piston 21 for controlling the intake engine valve does not have the end nose and the check-valve 32 is obtained in a fixed part instead of being obtained in the body of the piston 21. Furthermore, one or more passages directly communicating with the pressure chamber C end up in the wall of the bushing within which the piston 21 is mounted slidably. Such passages are configured and positioned so that they are progressively intercepted by the piston 21 in the final phase of closing the engine valve, with the aim of providing a narrowing of the passage section for the fluid, with ensuing hydraulic braking effect. Furthermore, in the solution proposed in the Europeanpatent application EP 1 344 900 A2 an auxiliary hydraulic tappet is interposed between the piston 21 1 for controlling the engine valve and the stem of the engine valve. - With the aim of illustrating another relevant application previously proposed by the Applicant,
figure 2 of the attached drawings shows the embodiment subject of the previous Europeanpatent application EP 1 653 057 A1 of the Applicant. In this case, the engine is provided with a single camshaft for controlling both the intake valves and the exhaust valves. - With reference to
figure 2 , all components of the electronically controlled hydraulic device are carried by asingle brick structure 200 which has a lower plane which in the mounted condition corresponds to the plane passing through the axes of twoshafts shaft 11 is the only camshaft of the engine and it is therefore provided both with cams for controlling the intake valves and the cams for controlling the exhaust valves of the engine, while theshaft 28 is a camless shaft having an end projecting from the cylinder head carrying a power take off which can be used for the actuation of any auxiliary system. - Analogously to the conventional engine, the two
shafts gears shafts - The
shaft 11, as mentioned previously, is provided both with cams for actuating the intake valves of the engine and cams for actuating the exhaust valves. According to a solution proposed previously in the prior European patent application n°EP 1555398 A1 of the Applicant, the cams for controlling the intake valves control the latter by means of an electronically controlled hydraulic device of the type analogous to the one described with reference tofigure 1 . Infigure 2 , the parts of such device are indicated with the same reference numbers that were used infigure 1 . On the contrary, the exhaust valves are controlled mechanically by the respective cams of theshaft 11. As clearly observable infigure 2 , the exhaust valves are controlled throughrocker arms 204 each of which has anend 205 pivoted to the structure of the cylinder head, an intermediate roller for contact with the respective cam, and theopposite end 206 which controls therespective exhaust valve 70. The pumpingelement 16 associated to each intake valve is instead controlled by arocker arm 207 which is pivoted to thebrick structure 200 and which has portions for respectively engaging with the control cam carried by theshaft 11 and with the pumpingelement 16.Figure 2 also illustrates the spark plug centrally associated to the engine cylinder. As previously mentioned, the brick carries all the elements part of the electronically controlled hydraulic device for the variable actuation of theintake valves 7, as well as all the channels of the hydraulic system associated to such device. - Now, with reference to the engine according to the invention, such engine is a four-stroke spark ignition engine, provided with a system for variably actuating the intake valves for example of the "MULTIAIR" type described previously with reference to
figures 1 and2 , capable of obtaining a lift of the intake valves equivalent to any value comprised between the zero value and a maximum value and also capable of varying both the duration of the opening of the intake valves and the opening and closing instants of the intake valves during the engine operating cycle. The use of a "MULTIAIR" system also allows the advantage of being able to provide a plurality of operations for opening and closing the intake valves within the engine intake phase. It should however be observed that the engine according to the invention can also be provided with a system for the variable actuation of the intake valves different from the "MULTIAIR" system, as long as it is capable of obtaining a lift of the intake valves corresponding to any value comprised between the zero value and a maximum value, as well as varying both the opening duration of the intake valves and the opening and closing instants of the intake valves. - According to a further essential characteristic of the engine according to the invention, the axis of each intake valve is inclined with respect to the axis of the respective engine cylinder by an angle not exceeding 12°. Such characteristic can be observed in
figure 8 of the attached drawings, where the parts common to that offigures 1 ,2 are indicated with the same reference number. In such figure, the axis of each of the twointake valves 7 associated to each cylinder is indicated with 7a, while X indicates the axis of the cylinder. In such concrete embodiment, the angle A comprised between theaxes 7a and X is substantially equivalent to 10°, and same case applies to the axis of each of the two exhaust valves associated to each cylinder. Such low inclination arrangement of the axes of the valves of the engine allows obtaining an engine having more compact dimensions, especially in the horizontal direction with reference tofigure 8 . - Also with reference to
figures 4 ,6 of the attached drawings, a further important characteristic of the engine according to the invention lies in the fact that two intake valves and two exhaust valves (figures 4 ,6 show the seats 7' and 70' respectively of theintake valves 7 and of the exhaust valves 70) which are arranged around a central spark plug (figures 4 ,6 only show the seat SP for the spark plug, which is instead illustrated infigure 2 , at a vertical central position between thevalves 7, 70) are provided for each cylinder. - A further essential characteristic of the engine according to the invention which is clearly observable in
figures 4 ,6 ,8 and9 of the attached drawings lies in the fact that the upper surface of the combustion chamber associated to each cylinder, defined in thelower surface 3 of the cylinder head, is formed with a masking wall which masks the curtain area of theintake valves 7 on the side facing towards theexhaust valves 70. - As previously mentioned, in the present description and in the claims that follow the term "curtain area" is used to indicate the theoretical cylindrical surface, coaxial with each intake valve, which is defined, when the intake valve is open, between the circular edge of the head of the intake valve and the circular edge of the seat thereof.
- With reference to
figures 4 ,6 ,8 and9 , the masking wall provided in each combustion chamber of the engine according to the invention is indicated in its entirety with reference M and it has two arched sections M1, M2, connected to each other by a central portion M3, which is coaxially extended to theaxis 7a of each intake valve along the circular edge of the valve seat 7'. - The comparison of
figure 4 ,6 withfigures 3 ,5 , which refer to an identical engine but without the masking wall, immediately shows the configuration difference of the surface of the combustion chamber. - Still with reference to
figure 9 , which shows the detail of the section of the masking wall M observable infigure 8 in enlarged scale, the masking wall M has, in each section M1, M2 along the edge of each valve seat 7', a section tapered towards a top edge, with an inner surface m, facing towards the axis of theintake valve 7, which is a cylindrical surface with axis coinciding with theaxis 7a of the valve. Furthermore, each of the portions M1, M2 of the masking wall M has an outer surface having a radiused profile, with a concave section n1 at the base of the wall M and a convex section n2 at the top of the wall. The profile thus defined of the section of the masking wall M was ideal for avoiding hot spots in the combustion chamber that could cause pre-ignition and lead to thermo-mechanical stresses. - Still with reference to
figure 9 , reference h indicates the height, in the direction parallel to theaxis 7a of each intake valve, of the masking wall M, while H indicates the maximum lift value of the intake valve (which is illustrated with a dashed line infigure 9 in the condition of maximum opening thereof). - Studies and experiments carried out by the Applicant lead to defining an ideal value of the h/H ratio with the aim of providing an ideal tumble effect at any engine operating condition and for any value of the intake valve lift which can be actuated by the variable valve actuation system. The selected value of the h/H ratio is comprised between 0.1 and 0.5 and it is preferably substantially equivalent to 0.25. The radial clearance g (see
figure 9 ) between the internal cylindrical wall m of the masking wall M and the circular edge of the head of theintake valves 7 is preferably comprised between 0.005 and 0.05 times the value of the diameter of the circular head of the intake valve. Preferably, the ratio between the clearance g and the diameter of the head of the intake valve is substantially equivalent to 0.028. Furthermore, with reference tofigure 4 , the angular width α along which the respective portion of the masking wall M extends, around theaxis 7a of each intake valve, is comprised between 90° and 200° and it is preferably substantially equivalent to 180°. -
Figures 11 ,12 are diagrams showing the speed field of the airflow flowing into the combustion chamber during an intake phase, in a low opening condition of the intake valves, respectively in the case of the engine offigures 3 ,5 and in the case of the engine according to the embodiment of the invention illustrated infigures 4 ,6 . - With reference to
figure 8 , the low inclination A of the axis of the intake valves would lead, in absence of the masking wall M, to an insufficient tumble effect of the airflow flowing into thecombustion chamber 2 in the case of low opening of theintake valve 7, at low engine speed. In such conditions, the energy of the inflowing airflow is low. In conventional engines with greater inclination A, the tumble effect is guaranteed in that, with reference to the representation offigure 8 , the airflow coming from the intake conduit 4 has a high inclination, hence upon reaching in the combustion chamber it tends to follow a circulatory motion (anticlockwise, in the plane offigure 8 ). In the case of the engine according to the invention, the low inclination A however does not give rise to drawbacks in terms of the tumble effect (which is desired to obtain high combustion efficiency) in that the masking wall M diverts the incoming airflow rightwards (with reference tofigure 8 ), so as to introduce a circulatory motion opposite to that of a conventional engine with more inclined valves (i.e. in the clockwise direction infigure 8 ). - The diagram of
figure 10 shows the value of the so-called tumble ratio (defined as the component, in the direction normal to the centreline plane of the chamber, of the ratio between the equivalent velocity of the fluid vortex and the rotational speed of the engine) at the various engine angles respectively in the case of an engine of the type illustrated in thefigures 3 ,5 , and in the case of an engine according to the invention, with masking wall. As observable, the tumble effect increases considerably. The advantages of the invention are also apparent from the diagram offigure 13 which compares the mean turbulent kinetic energy of the tumble flow in the case of the engine offigures 3 ,5 and that of the engine according to the invention offigures 4 ,6 . - At the same time, when the engine is running at a high speed and the variable actuation system of the intake valves enables the complete opening of the valves, up to the maximum value H of the lift of the intake valves, the masking wall should not be a hindrance, given that it is necessary to exploit the high energy of the airflow flowing into the combustion chamber to obtain an ideal combustion.
- As indicated previously, the specific configuration of the masking wall of the engine according to the invention is capable of efficiently meeting all the aforementioned needs, all combined with a with a system for variably actuating the valves which allows optimal adaptation of the lift of the intake valves to any engine operating condition, providing a lift value which can be any value comprised between a zero value and the maximum value H.
- Obviously, without prejudice to the principle of the invention the construction details and the embodiments may vary widely with respect to what has been described and illustrated purely by way of example, without departing from the scope of protection of the present invention.
Claims (3)
- Spark ignition four stroke internal combustion engine, comprising, for each cylinder:- a combustion chamber (2),- two intake conduits (4) and two exhaust conduits (6) ending up in said combustion chamber (2),- two intake valves (7) and two exhaust valves (70) associated to said intake and exhaust conduits (4, 6), arranged around a central spark plug, said valves being of the type comprising a stem (8) mounted slidably along the axis (7a) thereof and a head in form of a circular disc cooperating with a respective valve seat (7'),- means (16, 24, 25) for varying the lift of the intake valves (7), and- a masking wall (M) in said combustion chamber (2), which masks the curtain area of said intake valves (7) on one side facing towards the exhaust valves,wherein:- the means (16, 24, 25) for varying the lift of the intake valves (7) are capable of actuating any lift value between a zero lift and a maximum lift H, as well as varying both the duration of the opening and the opening and closing instants of each intake valve (7),- the axis (7a) of each intake valve (7) is inclined with respect to the axis (X) of the respective engine cylinder -by an angle (A),- said masking wall (M) has along the seat (7') of each intake valve (7) a height h in the direction parallel to the axis (7a) of the intake valve which is comprised between 0.1 and 0.5 times, extremes included, the abovementioned maximum value H of the lift of each intake valve (7),characterised in that said angle (A) of inclination of each intake valve (7) does not exceed 12°,
in that along each intake valve seat (7'), the abovementioned masking wall (M) has a tapered configuration towards a top edge, with an inner surface (m) facing towards the axis (7a) of the valve (7), in form of cylindrical surface with axis coinciding with said axis of valve (7a), and an outer surface having a radiused profile, with a concave section (n1) at the base of the wall (M) and a convex section (n2) at the top of the wall,
in that the inner surface (m) of the abovementioned masking wall (M) facing towards the axis (7a) of each intake valve (7) has a radial clearance (g) with respect to the head of the intake valve (7) comprised between 0.005 and 0.05 times the diameter of the head of the intake valve (7),
in that said masking wall (M) has along the seat of each intake valve (7) a height h in the direction parallel to the axis (7a) of the intake valve (7) which is substantially equivalent to 0.25 times the abovementioned value H of the intake valve lift,
in that the inner surface of the abovementioned masking wall (M) facing towards the axis of each intake valve has a radial clearance (g) with respect to the head of the intake valve (7) substantially equivalent to 0.028 times the diameter of the head of the intake valve (7), and
in that along each intake valve seat (7') the abovementioned masking wall (M) extends around the axis (7a) of the intake valve over an angle comprised between 90° and 200°, extremes excluded. - Engine according to claim 61, characterised in that said angle (α) is substantially equivalent to 180°.
- Engine according to any one of the preceding claims, characterised in that said means for varying the lift of the intake valves (7) comprise at least one camshaft (11) for actuating the intake valves (7), each intake valve (7) being controlled by said camshaft (11) through a respective tappet (15), against the action of elastic return means (9) and by interposing hydraulic means including a pressurised fluid chamber (C) towards which a pumping piston (16) connected to the tappet (15) faces, said pressurised fluid chamber (C) being adapted to be connected by means of a solenoid valve (24) with an exhaust channel (23), with the aim of decoupling the intake valve (7) from the respective tappet (15) and cause the quick closure of the valve due to the respective elastic return means (9), electronically controlled means (25) being provided for controlling said solenoid valve (24) so as to vary the lift, the opening duration and the opening and closing instants of the intake valve (7) as a function of one or more operating parameters of the engine.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP10196728A EP2474714B1 (en) | 2010-12-23 | 2010-12-23 | Internal combustion engine with wall masking the curtain area of the intake valves |
US13/303,920 US8534243B2 (en) | 2010-12-23 | 2011-11-23 | Internal combustion engine with masking wall the curtain area of the intake valves |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP10196728A EP2474714B1 (en) | 2010-12-23 | 2010-12-23 | Internal combustion engine with wall masking the curtain area of the intake valves |
Publications (2)
Publication Number | Publication Date |
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EP2474714A1 EP2474714A1 (en) | 2012-07-11 |
EP2474714B1 true EP2474714B1 (en) | 2013-04-03 |
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Family Applications (1)
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EP10196728A Active EP2474714B1 (en) | 2010-12-23 | 2010-12-23 | Internal combustion engine with wall masking the curtain area of the intake valves |
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US (1) | US8534243B2 (en) |
EP (1) | EP2474714B1 (en) |
Families Citing this family (5)
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JP6176005B2 (en) | 2013-09-06 | 2017-08-09 | トヨタ自動車株式会社 | Control device for internal combustion engine |
JP6900932B2 (en) * | 2018-04-18 | 2021-07-14 | トヨタ自動車株式会社 | Internal combustion engine cylinder head |
FR3095236B1 (en) * | 2019-04-16 | 2021-04-09 | Ifp Energies Now | Gas inlet device provided with an oriented mask |
FR3095237B1 (en) | 2019-04-16 | 2021-04-09 | Ifp Energies Now | Gas inlet device with two asymmetrical inlet ducts |
WO2024003628A1 (en) * | 2022-06-27 | 2024-01-04 | Stellantis Europe S.P.A. | A hydrogen-fueled internal combustion engine with masking of the intake valves |
Family Cites Families (15)
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EP0003642B1 (en) | 1978-02-10 | 1984-07-18 | Imperial Chemical Industries Plc | Production of olefine oxides |
PT70556A (en) | 1978-12-20 | 1980-01-01 | Gist Brocades Nv | Vaccines against diseases caused by reo-virus and process for the preparation of those vaccines |
AU5620080A (en) | 1979-03-07 | 1980-10-30 | Vydec Inc. | Determining position of paper in typewriter |
JPH0733766B2 (en) * | 1988-08-30 | 1995-04-12 | トヨタ自動車株式会社 | Combustion chamber of internal combustion engine |
GB8927668D0 (en) * | 1989-12-07 | 1990-02-07 | Ricardo Group Plc | Internal combustion engines |
JPH0952477A (en) | 1995-08-15 | 1997-02-25 | Mishima Seishi Kk | Back carbon copying paper |
IT1285853B1 (en) * | 1996-04-24 | 1998-06-24 | Fiat Ricerche | INTERNAL COMBUSTION ENGINE WITH VARIABLE OPERATION VALVES. |
JPH10252477A (en) | 1997-03-13 | 1998-09-22 | Nissan Motor Co Ltd | Direct cylinder fuel injection type spark ignition engine |
US6109234A (en) * | 1998-10-16 | 2000-08-29 | Ford Global Technologies, Inc. | Cylinder head intake system |
ITTO20020234A1 (en) | 2002-03-15 | 2003-09-15 | Fiat Ricerche | INTERNAL COMBUSTION MULTI-CYLINDER ENGINE WITH ELECTRONICALLY CONTROLLED HYDRAULIC DEVICE FOR VARIABLE OPERATION OF VALVES AND D |
JP2004293483A (en) * | 2003-03-28 | 2004-10-21 | Mazda Motor Corp | Intake device of spark ignition type reciprocal engine |
ATE355445T1 (en) | 2004-01-16 | 2006-03-15 | Fiat Ricerche | INTERNAL COMBUSTION ENGINE WITH A SINGLE OVERHEAD CAMSHAFT FOR MECHANICAL CONTROL OF EXHAUST VALVES AND ELECTROHYDRAULIC CONTROL OF INLET VALVES |
DE602004005600T2 (en) | 2004-10-28 | 2007-12-27 | C.R.F. S.C.P.A. | Internal combustion engine with an electronic control for a hydraulic device for variable actuation of intake valves |
JP4696977B2 (en) * | 2006-03-08 | 2011-06-08 | 日産自動車株式会社 | Variable compression ratio engine |
JP2010261314A (en) * | 2009-04-30 | 2010-11-18 | Nissan Motor Co Ltd | Intake valve mask structure of internal combustion engine |
-
2010
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2011
- 2011-11-23 US US13/303,920 patent/US8534243B2/en active Active
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US20120160198A1 (en) | 2012-06-28 |
US8534243B2 (en) | 2013-09-17 |
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